Trophoblastic differentiation of human teratocarcinoma cell line HT-H1

In culture the human teratocarcinoma cell line HT-H generates both adherent monolayer and free-floating aggregates. Some populations of aggregated cells develop further to form cystic bodies. A previous study showed the morphological resemblance of the cystic bodies to cells of blastocyst of preimplantation embryo. In this study, HT-H adherent cells were further separated into two subpopulations, fast adhering and slow adhering cells. Fast adhering cells produce fibronectin, spread well onto substratum, and do not proliferate. In contrast, slow adhering cells do not produce fibronectin. Trophoblastic markers were examined in each morphological stage of HT-H cells and the following results were obtained. Only fast adhering cells produce progesterone. Human chorionic gonadotropin was secreted preferentially by fast adhering cells, about six times less by slow adhering cells, and was not secreted by aggregates or cystic bodies. All stages of HT-H cells express c-fos but only fast adhering cells express c-fms oncogene. Cytokeratin 18 was expressed in all stages of HT-H cells. The level of cytokeratin 18 is modestly decreased from adherent to aggregates further into cystic bodies. These results indicate that HT-H cells share properties with cells in trophoblast, placenta, and extraembryonic endoderm. Spontaneous differentiation of HT-H cultures results in the appearance of fast adhering cells which exhibit biochemical properties expected for syncytiotrophoblast.     

Loss of CMS-specific mitochondrial DNA arrangement in fertile segregants of Petunia hybrids

The progeny of somatic hybrid Petunia plants derived from the fusion of a male-fertile line and a cytoplasmic male-sterile (cms) line were examined. Male-fertile progeny derived from three different male-sterile somatic hybrid plants did not exhibit the mitochondrial DNA (mtDNA) arrangement which has previously been correlated with cms in Petunia. The cms-associated mtDNA arrangement was present in the male-sterile predecessors of these fertile revertants. Thus, it is concluded that the loss of this mtDNA arrangement is associated with reversion to fertility in the progeny of the unstable somatic hybrid petunia plants.     

Mhc Class II DNA Polymorphisms within and between Chromosomal Species of the Spalax Ehrenbergi Superspecies in Israel

Restriction fragment length polymorphisms (RFLPs) of two major histocompatibility class II genes (P alpha 1 and Q beta) were studied in 13 populations of four chromosomal species (2n = 52, 54, 58 and 60) of the mole rat, Spalax ehrenbergi superspecies in Israel. A substantial frequency of allelic fragments was found in both genes for all populations, including a desert isolate. In the P alpha 1 gene, one allelic fragment is a result of a deletion mutation which is diagnostic of the 2n = 52 chromosomal species. All other ten allelic variants are the result of point mutations. All mutations are located in a short region flanking the 3' end of the gene. Based on Mhc polymorphisms we confirm earlier evidence that gene flow does not occur between the older chromosomal species (2n = 52, 54, 58), and that reproductive isolation decreases, progressively from the oldest to the youngest species (2n = 60).     

Control of bovine placental progestin synthesis: calcium dependent steroidogenesis is modulated at the site of the cholesterol side chain cleavage enzyme

We have previously reported that progesterone synthesis in the bovine placenta is regulated by Ca2+ dependent and cyclic nucleotide independent mechanism. In studies conducted to further define the role of Ca2+ in the synthesis of progestins in bovine placental tissue, it was found that both protein kinase C (PKC), as determined by phosphorylation, and cytochrome P-450 side chain cleavage, as determined by Western blot analysis, were detectable in the steroidogenetically active portion of the placentome. To determine the site of action of PKC, fetal cotyledon cells were incubated in media containing 25-hydroxycholesterol in the absence or or presence of 10 ng/ml 12-O-tetradecanoyl-phorbol-13-acetate (TPA). It was found that TPA significantly (P less than 0.05) increased the conversion of the exogenous cholesterol analog to progesterone. To determine if the TPA could act synergistically with calcium activators, fetal cotyledon cells were incubated with either methyl isobutyl xanthine (MIX), an activator of intracellular calcium, or the calcium ionophore, A23187, which increases extracellular calcium influx, or both of these agents, in the presence or absence of TPA. It was found that TPA synergistically increased the conversion of sterol to progestins induced by submaximal concentrations of either MIX or A23187. In the presence of both compounds, TPA induced an even more dramatic increase in progestin synthesis. In experiments in which cyanoketone, an agent that inhibits the conversion of pregnenolone to progesterone, was added, TPA addition resulted in increased pregnenolone production, indicating that side chain cleavage of cholesterol is the site of action. The data, therefore, suggest that: (a) Ca2+ affects mechanisms regulating placental steroidogenesis; (2) one locus of Ca2+ is the cholesterol side chain cleavage reaction; and (3) PKC found in this tissue has a role in the Ca activated progestin production.     

Equity in the NHS. Monitoring and promoting equity in primary and secondary care.

Although need is often assumed to be the most important factor in determining the use of health services, there are many inequities in the provision and use of NHS services in both primary and secondary care. For example, existing data from district child health information services have been combined with census data for small areas to show wide variations in immunisation rates between affluent and deprived areas. Purchasers of health care are already responsible for assessing health needs and evaluating services, and the process of monitoring equity is a logical extension of these activities. Routine data sources used to collect activity data in both primary and secondary care can be used to assess needs for care and monitor how well these needs are met. Purchasers and providers should collaborate to improve the usefulness of these routine data and to develop a framework for monitoring and promoting equity more systematically.     

Donor chromosome elimination and organelle composition of asymmetric somatic hybrid plants between an interspecific tomato hybrid and eggplant

Morphology, the extent of elimination of donor chromosomes and the organelle composition of highly asymmetric somatic hybrid plants between a interspecific tomato hybrid Lycopersicon esculentum x L. pennellii (EP) as donor and a Solarium melongena, eggplant (E), recipient, were studied. Morphologically, the somatic hybrids most resemble eggplant but, due to polyploidy, growth is slower relative to both fusion parents. The somatic hybrids produce flowers that are characterized by abnormal styles, stigmas and by anthers which do not produce pollen. Limited amounts of donor EP genomic DNA were found in the three somatic hybrid plants (H18-1, H18-2 and H18-3), by dot-blot hybridization with probe pTHG2, equivalent to 6.23,5.41, and 5.95% EP, respectively. These percentages translated to the presence of 3.59, 2.90 and 3.19 average-size EP chromosomes in plants H1 8-1,-2 and-3, respectively. RFLP determination of L. esculentum- and L. pennellii-specific chromosomes revealed that only fragments of eight to ten out of the 24 EP chromosomes (EP has 12 L. esculentum and 12 L. pennellii chromosomes) are present in the asymmetric somatic hybrid plants. Loci of L. esculentum and L. pennellii were evenly represented in plants H18-1, -2, and -3: four to five from L. esculentum and four to five from L. pennellii. All somatic hybrid plants retained locus TG22, chromosome 4, from both EP species. Although the regeneration of plants, H18-1, -2 and-3 was from one callus, loci TG31 and TG79 of L. esculentum chromosome 2 and L. pennellii chromosome 9, respectively, were missing in hybrid plant H18-1. The three somatic hybrid plants all had chloroplast DNA fragments specific for S. melongena. The mitochondrial genome (mtDNA) in the asymmetric somatic hybrids showed predominantly the pattern of eggplant; however, some eggplant-specific polymorphic bands were not present in the three plants.     

Induction of high mitotic index in Petunia suspension cultures by sequential treatment with aphidicolin and colchicine

Significantly higher than normal mitotic index (MI) values were induced in Petunia cell suspensions following treatments with colchicine, aphidicolin, drastic medium replacement, or a sequential application of aphidicolin and colchicine. This last treatment yielded the highest MI values: cells incubated with 30 g/ml aphidicolin for 18 h, then cultured in drug-free medium for 8 h and finally exposed to 0.1% colchicine for 8 additional hours exhibited MI of 62.8% and 65.7% respectively, for the two cell lines in study.Abbreviations MI mitotic index - 2,4-D 2,4-dichlorophenoxyacetic acid Contribution from the Agricultural Research Organization, The Volcani Center, Bet-Dagan 50-250, Israel No. 1028-E, 1984 series.     

Mechanism of male sterility in Petunia

Summary The free amino acid contents in the anthers of male fertile, cytoplasmic male sterile (cms) and genic male sterile (gms) petunia lines were compared at different developmental stages of the male gametophyte. Quantitative differences in the amounts of free amino acids were found between the fertile and male sterile lines and between the cms and gms lines. The differences between the sterile lines were correlated with the different developmental stages at which the breakdown in microsporogenesis occurred. In the Rosy Morn (RM) cms line, where breakdown of microsporogenesis occurred at the end of prophase 1, there was an associated increase in asparagine and decrease in the other amino acids. In the RM gms line, in which breakdown occurred at the tetrad stage, an accumulation of asparagine in the anthers corresponded with an accumulation of glutamine beginning at prophase 1. Compared with fertile anthers, the sterile anthers accumulated much proline at the early meiotic stages, but no -aminobutyric acid. Comparison of the free amino acids of the fertile and the male sterile lines indicates that certain biochemical events leading to breakdown of microsporogenesis precede the observed cytological breakdown. The results from adding asparagine and glutamine to extracts of anthers at different developmental stages suggest that the amino acid balance may contribute to the changes in pH in the fertile and male sterile anthers which we observed previously.Contribution from the Volcani Center, Agricultural Research Organization Bet Dagan, Israel. 1972 Series, No. 2083 E.     

Integrated control of the long-tailed mealybug,Pseudococcus longispinus [Hom.: Pseudococcidae], in avocado plantations in Israel

Avocado plantations in Israel neighbouring cotton fields were heavily infested with and damaged by the long-tailed mealybugPseudococcus longispinus Targioni Tozzetti. Drift of pesticides from the aerial sprays of those cotton fields upset the biological equilibrium and resulted in outbreaks of the mealybug population. The honeydew moth,Cryptoblabes gnidiella Mill. is attracted to the honeydew and its larvae gnaw the fruit. Avocado plantations in the vicinity of deciduous fruit trees, vines and citrus orchards treated with non-selective pesticides were also damaged, but to a lesser degree. The annual peak of the long-tailed mealybug population occurs in late spring and early summer, declines from autumn to winter, and is at an ebb usually in April. The parasitic waspHungariella peregrina Compere, the most important natural enemy in Israel of the long-tailed mealybug, was released in the striken areas.Anagyrus fusciventris Girault was introduced from Australia and well established in citrus and avocado plantations. The lady beetleCryptolaemus montrouzieri Muls. did not become established in avocado plantations. Lacewings were less important than parasites as biocontrol agents. Control of ants did not affect markedly the fluctuations in the mealybug populations. As a result of limitations of aerial sprays of cotton near avocado, as well as of release of natural enemies in afflicted plantations, the long-tailed mealybug population and its damage were reduced greatly.     

Pharmacologic inhibition of reactive gliosis blocks TNF-α-mediated neuronal apoptosis

Reactive gliosis is an early pathological feature common to most neurodegenerative diseases, yet its regulation and impact remain poorly understood. Normally astrocytes maintain a critical homeostatic balance. After stress or injury they undergo rapid parainflammatory activation, characterized by hypertrophy, and increased polymerization of type III intermediate filaments (IFs), particularly glial fibrillary acidic protein and vimentin. However, the consequences of IF dynamics in the adult CNS remains unclear, and no pharmacologic tools have been available to target this mechanism in vivo. The mammalian retina is an accessible model to study the regulation of astrocyte stress responses, and their influence on retinal neuronal homeostasis. In particular, our work and others have implicated p38 mitogen-activated protein kinase (MAPK) signaling as a key regulator of glutamate recycling, antioxidant activity and cytokine secretion by astrocytes and related Müller glia, with potent influences on neighboring neurons. Here we report experiments with the small molecule inhibitor, withaferin A (WFA), to specifically block type III IF dynamics in vivo. WFA was administered in a model of metabolic retinal injury induced by kainic acid, and in combination with a recent model of debridement-induced astrocyte reactivity. We show that WFA specifically targets IFs and reduces astrocyte and Müller glial reactivity in vivo. Inhibition of glial IF polymerization blocked p38 MAPK-dependent secretion of TNF-α, resulting in markedly reduced neuronal apoptosis. To our knowledge this is the first study to demonstrate that pharmacologic inhibition of IF dynamics in reactive glia protects neurons in vivo.Astrocyte reactivity (reactive gliosis) is an early pathological feature common to most neurodegenerative diseases, yet its regulation and impact remains poorly understood. In the healthy central nervous system (CNS), astrocytes coordinate homeostatic vascular perfusion, free radical detoxification and neurotransmitter recycling.^{1, 2} Injury or stress induces a phenotypic switch, whose cardinal features are cellular hypertrophy and increased expression and polymerization of type III intermediate filaments (IFs), particularly glial fibrillary acidic protein (GFAP).^{3, 4, 5} The role of intermediate filaments in reactive gliosis remains unclear.^{3, 6, 7, 8, 9} Genetic deletion of IFs GFAP and vimentin have been shown to promote axonal outgrowth and regeneration in developing neurons and models of CNS injury,^{10, 11, 12} yet result in developmental defects to inner retinal function¹³ and increased damage in models of Alzheimer''s disease.¹⁴ Genetically, GFAP gain of function mutations associated with Alexander''s disease induce a p38 mitogen-activated protein kinase (MAPK)-dependent pathology.¹⁵ However, no pharmacologic tools have been available to specifically modulate and explore this reactive switch in the context of pathological CNS injury. Consequently, strategies to therapeutically target the reactive switch have remain challenging to explore.Withaferin A (WFA) is a small molecule withanolide that is a potent and specific inhibitor of type III intermediate filament dynamics.^{16, 17, 18} Its activity has been most closely studied with respect to vimentin rearrangement and phosphorylation in the context of angiogenesis, fibrosis and cancer, through downstream effects on inflammatory signaling and cell proliferation.^{19, 20, 21, 22, 23, 24} Interestingly, WFA has been reported to regulate vimentin-mediated activation of MAPKs in a context dependent manner, as well as NFκB.^{25, 26} Recently Bargagna-Mohan et al.²⁷ reported that, in addition to vimentin, WFA also binds covalently to GFAP at cysteine 294. In these studies WFA impaired GFAP filament assembly and polymerization in cultured astrocytes, and in vivo in retinal astrocytes and related Müller glia in a model of injury-induced gliosis.²⁷ Therefore, WFA presents a novel tool to test the pharmacologic blockade of intermediate filament remodeling during gliosis. However, the consequences of WFA disruption of IFs on neuronal damage has not been studied.We have previously used the retina as a uniquely accessible model to study the regulation of astrocyte stress responses, and their influence on retinal neuronal survival.^{28, 29, 30} In the human and rodent eye retinal ganglion cells (RGCs) and amacrine cells of the inner retina maintain a delicate homeostatic balance and are particularly vulnerable to excitotoxic and metabolic damage, mediated in part through non-cell autonomous interactions with neighboring glia.^{31, 32, 33, 34} In addition, our work and others has implicated signaling through p38 MAPKs as key regulators of glutamate recycling, antioxidant activity, and cytokine secretion in neighboring stress-activated retinal astrocytes and Müller glia.^{29, 35, 36, 37} Here we take advantage of a model of induced retinal astrocyte reactivity to establish whether WFA, and the selective p38 MAPK inhibitor SB203580 (SB), affect neuronal apoptosis in a mouse model of excitotoxic injury.